DE619519C - Electric oscillating armature motor - Google Patents

Description

Electric oscillating armature motors running on alternating current or chopped direct current be operated and develop torques in spite of the simple and cheap design, used for various practical purposes, e.g. B. for the movement of advertising figures, are sufficient, are known. A substantial part of such motors consists of a vibrating armature, which rotates its movement on one

ίο transferred body. For the transfer Up to now, special mechanical locks were considered necessary; because with such locks the transmission forces are highly variable, the operation has so far not been satisfactory.

The existing difficulties are now solved according to the invention, that the power flow of the excitation field of an electric oscillating armature motor via a

ao rotatably mounted body and a swing armature is closed and that this two elements are arranged to each other that the oscillating armature during its movement takes along the rotatable body by virtue of magnetic forces.

Embodiments of the invention are shown in FIGS. 1 to 5, of which FIG. 1 shows a section along the line AB in FIG. 2, and FIG. 2 shows a view of the oscillating armature motor according to FIG. 1 from above.

The fixed magnet 1 (Fig. I) has a vertical sleeve 2 in which an iron core 3 of round cross-section can be rotated is stored. A lateral web of the magnet ends in pole 4. At the top of the An iron disk 5 is attached to the core 3 by means of a bolt 7, which connects the flange 6 the disc 5 penetrates. An iron armature 8, which is swingably attached to the frame of the engine, leads near the Poles 4 up to the level of the disk 5. There the armature 8 carries a horizontal one Pin 9 on which an iron sleeve 10 serving as a pawl slides. The sleeve 10 touches the disc 5.

The sleeve 2 of the fixed magnet carries a coil 11 which, when a current is closed, a magnetic flux of force along the dash-dotted line 12 through the various iron Drives parts of the engine through it. If the coil is supplied with current, it works as follows:

With each onset of the magnetic flux of force, the oscillating armature 8 becomes magnetic and is therefore attracted to pole 4. With this movement is also the Pawl 10 and the turntable 5 magnetic; the latter is therefore controlled by the pawl taken along and rotates through a certain angle, according to the deflection of the oscillating armature 8, in the direction of arrow 43 (Fig. 2).

When the magnetic flux is interrupted, the armature moves into its rest position back, at the same time releasing the rotatable body.

The return movement of the armature is expediently supported by a spring; by doing Example of Fig. 1, the anchor itself is resilient.

The oscillating armature motor can be "used" in a known manner for display items to move. For this purpose, these are provided with iron feet and placed on a resting, non-magnetizable pad set through which a protruding shaft end of the Motor penetrates. This end must be strongly magnetized because it is connected to the Iron foot of the subject to achieve a rolling movement_ of the latter in Is associated. ■

In the design of Fig. Ι is now the magnetic Flooding of the uppermost part of the core 3 only weakly because the magnetic flux essentially follows the line 12. However, according to FIG. 3, which is completely similar to FIG. 1, a strong one can be used Pole 13 can be achieved by making the turntable of non-magnetic material 14 (e.g. made of hard paper) and only the disc edge 15 made of iron. In this way A strong leakage flux is formed at the desired point, which flows through the pole 13.

The display item 44 itself is provided with an iron foot (45) which is one of the desired movement has corresponding design of its rolling surface. The show item ' rests on the solid base 46 and for the purpose of movement is the protruding shaft end of the motor so approximated that its iron foot the shaft end touched.

As FIGS. 4 and 5 show, the special pawl (10 in FIG. 1) can be saved.

The main view of such a motor is shown in FIG. 4, while FIG. 5 shows a section along the line CD of FIG.

The fixed magnet system 17 here has two projections 18 and 18 ^a , on which the coils 19, 19 ⁰ are arranged. Carry two resilient oscillating anchors 20 and 21. on its upper ends a disk 22 which has a hub-like extension 23. The hub 23 is slotted at 24. A pin 25, which is attached to the axis of rotation 26 of the system, engages in the slot. The arrangement allows play of the turntable 22 in the direction of the axis 26. The pin and the hub 23 entrain the axis 26 when the disk 22 itself rotates.

The arrangement acts similarly to that of FIG. 1. The power flow here consists of two branches, along the dashed lines 30 and 31. At the onset of the flow of force the two anchors 20 and 21 are attracted to the poles 27 and 28; here the turntable is pressed onto the ends of the anchors and with the anchors around one rotated certain angle in the direction of the arrow (Fig. 5). When the flow of force is suspended, the anchors return to their Rest position back without taking the disc with you, because this is the frictional force not sufficient due to the severity. 6g

Since, in this example, the power flow in the iron body is closed, at 32 a Pole of appreciable strength not be present. A strong pole formation can be achieved here can be achieved by an additional magnetization of the shaft end 32. Therefor only a special coil 33 needs to be applied to the pole 32.

Claims (6)

Patent claims: 1. Electric oscillating armature motor, characterized in that the power flow of the excitation field is closed via a rotatably mounted body and a swing armature and that these two Elements are arranged to one another so that the oscillating armature is able to move the rotatable body magnetic forces. 2. Oscillating armature motor according to claim 1, characterized in that the movement of the oscillating armature by means of magnetic forces against spring resistance. 3. oscillating armature motor according to claim ι or 2, characterized in that the magnetic flux of force is closed via a pair of symmetrically arranged oscillating armatures (20, 21). 4. oscillating armature motor according to claim 1 to 3 for the movement of objects of interest, characterized in that the rotatable body (3) has a pronounced pole (13) with which a magnetizable, specially shaped piece (45) of the display item (44) in contact occurs. 5. oscillating armature motor according to claim4, characterized in that the pronounced Pole (32) of the rotatable body carries an additional winding (33). 6. oscillating armature motor according to claim 4, characterized in that the pronounced Pole (13) of the rotatable body in a non-magnetic intermediate layer (14) sits. For this purpose ι sheet drawings